问题
I'm trying to figure out how the basic IO Haskell functions are defined, so I used this reference and I got to the putChar function definition:
putChar :: Char -> IO ()
putChar = primPutChar
Now, however, I cannot find more information about this primPutChar function anywhere. Maybe it might refer to a pre-compiled function, available as binary from a shared object? If that's the case, is it possible to see its source code?
回答1:
What prim* means
Since you're asking this question in terms of the report, let's also answer this question in terms of the report:
Primitives that are not definable in Haskell , indicated by names starting with "
prim", are defined in a system dependent manner in modulePreludeBuiltinand are not shown here
This is still the same in Haskell2010 by the way.
How it's implemented in GHC
However, you can have a look at base's source to see how it's implemented in GHC:
putChar :: Char -> IO ()
putChar c = hPutChar stdout c
From there you're going deep into the rabbit hole. How does hPutChar know how to print stuff? Well, it doesn't. It only "buffers" and checks that you can write:
hPutChar :: Handle -> Char -> IO ()
hPutChar handle c = do
c `seq` return ()
wantWritableHandle "hPutChar" handle $ \ handle_ -> do
hPutcBuffered handle_ c
The writing is done in writeCharBuffer which fills an internal buffer until it's full (or a line has been reached—it actually depends on the buffer mode):
writeCharBuffer h_@Handle__{..} !cbuf = do
-- much code omitted, like buffering
bbuf'' <- Buffered.flushWriteBuffer haDevice bbuf'
-- more code omitted, like buffering
So where is flushWriteBuffer defined? It's actually part of stdout:
stdout :: Handle
stdout = unsafePerformIO $ do
setBinaryMode FD.stdout
enc <- getLocaleEncoding
mkHandle FD.stdout "<stdout>" WriteHandle True (Just enc)
nativeNewlineMode{-translate newlines-}
(Just stdHandleFinalizer) Nothing
stdout :: FD
stdout = stdFD 1
And a file descriptor (FD) is an instance of BufferedIO:
instance BufferedIO FD where
-- some code omitted
flushWriteBuffer fd buf = writeBuf' fd buf
and writeBuf uses instance GHC.IO.Device.RawIO FD's write, and that ultimately leads to:
writeRawBufferPtr loc !fd buf off len
| isNonBlocking fd = unsafe_write -- unsafe is ok, it can't block
| otherwise = do r <- unsafe_fdReady (fdFD fd) 1 0 0
if r /= 0
then write
else do threadWaitWrite (fromIntegral (fdFD fd)); write
where
do_write call = fromIntegral `fmap`
throwErrnoIfMinus1RetryMayBlock loc call
(threadWaitWrite (fromIntegral (fdFD fd)))
write = if threaded then safe_write else unsafe_write
unsafe_write = do_write (c_write (fdFD fd) (buf `plusPtr` off) len)
safe_write = do_write (c_safe_write (fdFD fd) (buf `plusPtr` off) len)
where we can see c_safe_write and c_write, which are usually bindings to C library functions:
foreign import capi unsafe "HsBase.h write"
c_write :: CInt -> Ptr Word8 -> CSize -> IO CSsize
So, putChar uses write. At least in GHC's implementation. The report however doesn't require that implementation, so another compiler/runtime is allowed to use other functions.
TL;DR
GHC's implementation uses write with internal buffers to write things, including single characters.
来源:https://stackoverflow.com/questions/34492110/haskell-primputchar-definition